#include #define TIMING_TIME 0 #define TIMING_FRAME 1 enum fade_style { FADE_STYLE_FADE_OUT_FADE_IN, FADE_STYLE_CROSS_FADE }; struct stinger_info { obs_source_t *source; obs_source_t *media_source; uint64_t duration_ns; uint64_t duration_frames; uint64_t transition_point_ns; uint64_t transition_point_frame; float transition_point; float transition_a_mul; float transition_b_mul; bool transitioning; bool transition_point_is_frame; int monitoring_type; enum fade_style fade_style; float (*mix_a)(void *data, float t); float (*mix_b)(void *data, float t); }; static const char *stinger_get_name(void *type_data) { UNUSED_PARAMETER(type_data); return obs_module_text("StingerTransition"); } static float mix_a_fade_in_out(void *data, float t); static float mix_b_fade_in_out(void *data, float t); static float mix_a_cross_fade(void *data, float t); static float mix_b_cross_fade(void *data, float t); static void stinger_update(void *data, obs_data_t *settings) { struct stinger_info *s = data; const char *path = obs_data_get_string(settings, "path"); obs_data_t *media_settings = obs_data_create(); obs_data_set_string(media_settings, "local_file", path); obs_source_release(s->media_source); s->media_source = obs_source_create_private("ffmpeg_source", NULL, media_settings); obs_data_release(media_settings); int64_t point = obs_data_get_int(settings, "transition_point"); s->transition_point_is_frame = obs_data_get_int(settings, "tp_type") == TIMING_FRAME; if (s->transition_point_is_frame) s->transition_point_frame = (uint64_t)point; else s->transition_point_ns = (uint64_t)(point * 1000000LL); s->monitoring_type = (int)obs_data_get_int(settings, "audio_monitoring"); obs_source_set_monitoring_type(s->media_source, s->monitoring_type); s->fade_style = (enum fade_style)obs_data_get_int(settings, "audio_fade_style"); switch (s->fade_style) { default: case FADE_STYLE_FADE_OUT_FADE_IN: s->mix_a = mix_a_fade_in_out; s->mix_b = mix_b_fade_in_out; break; case FADE_STYLE_CROSS_FADE: s->mix_a = mix_a_cross_fade; s->mix_b = mix_b_cross_fade; break; } } static void *stinger_create(obs_data_t *settings, obs_source_t *source) { struct stinger_info *s = bzalloc(sizeof(*s)); s->source = source; s->mix_a = mix_a_fade_in_out; s->mix_b = mix_b_fade_in_out; obs_transition_enable_fixed(s->source, true, 0); obs_source_update(source, settings); return s; } static void stinger_destroy(void *data) { struct stinger_info *s = data; obs_source_release(s->media_source); bfree(s); } static void stinger_video_render(void *data, gs_effect_t *effect) { struct stinger_info *s = data; float t = obs_transition_get_time(s->source); bool use_a = t < s->transition_point; enum obs_transition_target target = use_a ? OBS_TRANSITION_SOURCE_A : OBS_TRANSITION_SOURCE_B; if (!obs_transition_video_render_direct(s->source, target)) return; /* --------------------- */ float source_cx = (float)obs_source_get_width(s->source); float source_cy = (float)obs_source_get_height(s->source); uint32_t media_cx = obs_source_get_width(s->media_source); uint32_t media_cy = obs_source_get_height(s->media_source); if (!media_cx || !media_cy) return; float scale_x = source_cx / (float)media_cx; float scale_y = source_cy / (float)media_cy; gs_matrix_push(); gs_matrix_scale3f(scale_x, scale_y, 1.0f); obs_source_video_render(s->media_source); gs_matrix_pop(); UNUSED_PARAMETER(effect); } static inline float calc_fade(float t, float mul) { t *= mul; return t > 1.0f ? 1.0f : t; } static float mix_a_fade_in_out(void *data, float t) { struct stinger_info *s = data; return 1.0f - calc_fade(t, s->transition_a_mul); } static float mix_b_fade_in_out(void *data, float t) { struct stinger_info *s = data; return 1.0f - calc_fade(1.0f - t, s->transition_b_mul); } static float mix_a_cross_fade(void *data, float t) { UNUSED_PARAMETER(data); return 1.0f - t; } static float mix_b_cross_fade(void *data, float t) { UNUSED_PARAMETER(data); return t; } static bool stinger_audio_render(void *data, uint64_t *ts_out, struct obs_source_audio_mix *audio, uint32_t mixers, size_t channels, size_t sample_rate) { struct stinger_info *s = data; uint64_t ts = 0; if (!obs_source_audio_pending(s->media_source)) { ts = obs_source_get_audio_timestamp(s->media_source); if (!ts) return false; } bool success = obs_transition_audio_render(s->source, ts_out, audio, mixers, channels, sample_rate, s->mix_a, s->mix_b); if (!ts) return success; if (!*ts_out || ts < *ts_out) *ts_out = ts; struct obs_source_audio_mix child_audio; obs_source_get_audio_mix(s->media_source, &child_audio); for (size_t mix = 0; mix < MAX_AUDIO_MIXES; mix++) { if ((mixers & (1 << mix)) == 0) continue; for (size_t ch = 0; ch < channels; ch++) { register float *out = audio->output[mix].data[ch]; register float *in = child_audio.output[mix].data[ch]; register float *end = in + AUDIO_OUTPUT_FRAMES; while (in < end) *(out++) += *(in++); } } return true; } static void stinger_transition_start(void *data) { struct stinger_info *s = data; if (s->media_source) { calldata_t cd = {0}; proc_handler_t *ph = obs_source_get_proc_handler(s->media_source); if (s->transitioning) { proc_handler_call(ph, "restart", &cd); return; } proc_handler_call(ph, "get_duration", &cd); proc_handler_call(ph, "get_nb_frames", &cd); s->duration_ns = (uint64_t)calldata_int(&cd, "duration"); s->duration_frames = (uint64_t)calldata_int(&cd, "num_frames"); if (s->transition_point_is_frame) s->transition_point = (float)((long double)s->transition_point_frame / (long double)s->duration_frames); else s->transition_point = (float)((long double)s->transition_point_ns / (long double)s->duration_ns); if (s->transition_point > 0.999f) s->transition_point = 0.999f; else if (s->transition_point < 0.001f) s->transition_point = 0.001f; s->transition_a_mul = (1.0f / s->transition_point); s->transition_b_mul = (1.0f / (1.0f - s->transition_point)); obs_transition_enable_fixed( s->source, true, (uint32_t)(s->duration_ns / 1000000)); calldata_free(&cd); obs_source_add_active_child(s->source, s->media_source); } s->transitioning = true; } static void stinger_transition_stop(void *data) { struct stinger_info *s = data; if (s->media_source) obs_source_remove_active_child(s->source, s->media_source); s->transitioning = false; } static void stinger_enum_active_sources(void *data, obs_source_enum_proc_t enum_callback, void *param) { struct stinger_info *s = data; if (s->media_source && s->transitioning) enum_callback(s->source, s->media_source, param); } static void stinger_enum_all_sources(void *data, obs_source_enum_proc_t enum_callback, void *param) { struct stinger_info *s = data; if (s->media_source) enum_callback(s->source, s->media_source, param); } #define FILE_FILTER \ "Video Files (*.mp4 *.ts *.mov *.wmv *.flv *.mkv *.avi *.gif *.webm);;" static bool transition_point_type_modified(obs_properties_t *ppts, obs_property_t *p, obs_data_t *s) { int64_t type = obs_data_get_int(s, "tp_type"); p = obs_properties_get(ppts, "transition_point"); if (type == TIMING_TIME) { obs_property_set_description( p, obs_module_text("TransitionPoint")); obs_property_int_set_suffix(p, " ms"); } else { obs_property_set_description( p, obs_module_text("TransitionPointFrame")); obs_property_int_set_suffix(p, ""); } return true; } static obs_properties_t *stinger_properties(void *data) { obs_properties_t *ppts = obs_properties_create(); obs_properties_set_flags(ppts, OBS_PROPERTIES_DEFER_UPDATE); obs_properties_add_path(ppts, "path", obs_module_text("VideoFile"), OBS_PATH_FILE, FILE_FILTER, NULL); obs_property_t *p = obs_properties_add_list( ppts, "tp_type", obs_module_text("TransitionPointType"), OBS_COMBO_TYPE_LIST, OBS_COMBO_FORMAT_INT); obs_property_list_add_int(p, obs_module_text("TransitionPointTypeTime"), TIMING_TIME); obs_property_list_add_int( p, obs_module_text("TransitionPointTypeFrame"), TIMING_FRAME); obs_property_set_modified_callback(p, transition_point_type_modified); obs_properties_add_int(ppts, "transition_point", obs_module_text("TransitionPoint"), 0, 120000, 1); obs_property_t *monitor_list = obs_properties_add_list( ppts, "audio_monitoring", obs_module_text("AudioMonitoring"), OBS_COMBO_TYPE_LIST, OBS_COMBO_FORMAT_INT); obs_property_list_add_int(monitor_list, obs_module_text("AudioMonitoring.None"), OBS_MONITORING_TYPE_NONE); obs_property_list_add_int( monitor_list, obs_module_text("AudioMonitoring.MonitorOnly"), OBS_MONITORING_TYPE_MONITOR_ONLY); obs_property_list_add_int(monitor_list, obs_module_text("AudioMonitoring.Both"), OBS_MONITORING_TYPE_MONITOR_AND_OUTPUT); obs_property_t *audio_fade_style = obs_properties_add_list( ppts, "audio_fade_style", obs_module_text("AudioFadeStyle"), OBS_COMBO_TYPE_LIST, OBS_COMBO_FORMAT_INT); obs_property_list_add_int( audio_fade_style, obs_module_text("AudioFadeStyle.FadeOutFadeIn"), FADE_STYLE_FADE_OUT_FADE_IN); obs_property_list_add_int(audio_fade_style, obs_module_text("AudioFadeStyle.CrossFade"), FADE_STYLE_CROSS_FADE); UNUSED_PARAMETER(data); return ppts; } struct obs_source_info stinger_transition = { .id = "obs_stinger_transition", .type = OBS_SOURCE_TYPE_TRANSITION, .get_name = stinger_get_name, .create = stinger_create, .destroy = stinger_destroy, .update = stinger_update, .video_render = stinger_video_render, .audio_render = stinger_audio_render, .get_properties = stinger_properties, .enum_active_sources = stinger_enum_active_sources, .enum_all_sources = stinger_enum_all_sources, .transition_start = stinger_transition_start, .transition_stop = stinger_transition_stop, };